Fertigation management in greenhouse hydroponics - WUR · Fertigation management in greenhouse...

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Fertigation management in greenhouse hydroponics Alberto Pardossi ([email protected]) University of Pisa, Pisa, Italy Euphoros Workshop – Szentes (HU), 28 June 2011

Transcript of Fertigation management in greenhouse hydroponics - WUR · Fertigation management in greenhouse...

Page 1: Fertigation management in greenhouse hydroponics - WUR · Fertigation management in greenhouse hydroponics Alberto Pardossi (alberto.pardossi@agr.unipi.it) University of Pisa, Pisa,

Fertigation management in greenhouse hydroponics

Alberto Pardossi ([email protected])University of Pisa, Pisa, Italy

Euphoros Workshop – Szentes (HU), 28 June 2011

Page 2: Fertigation management in greenhouse hydroponics - WUR · Fertigation management in greenhouse hydroponics Alberto Pardossi (alberto.pardossi@agr.unipi.it) University of Pisa, Pisa,

Contents:

� Introduction:

� Greenhouse industry and hydroponics in Europe and Italy

� Open- vs closed (loop) hydroponics

� Project results

� Water quality for closed hydroponics

� Boron toxicity in soilless tomato

� Fertigation strategy

� Quick tests

� Simulation tool (water and mineral relations)

Page 3: Fertigation management in greenhouse hydroponics - WUR · Fertigation management in greenhouse hydroponics Alberto Pardossi (alberto.pardossi@agr.unipi.it) University of Pisa, Pisa,

(1000 ha)

Netherlands: 10.2Poland: 6.3Hungary: 2.0

France: 9.2Spain: 66.0Italy: 34.6Greece: 5.3 Source: EUROSTAT 2008-09

Greenhouse industry in Europe

~ 200.000 ha

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Greenhouse industry in Italy

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Solanacea(tomato, pepper)

Cucurbits(zucchini, cucumber, melon)

Leafy vegetables

Cut flowers

ITALY 7805.3 4294.2 2711.2 3987.6

Veneto NORTH 718 397 358 126

Piemonte NORTH 303 83 98 47

Lombardia NORTH 75 130 1,500 97

Liguria NORTH 7 2 1 438

Lazio CENTRE 869 1,628 284 412

Toscana CENTRE 75 56 38 279

Campania SOUTH 1,467 1,122 269 1,039

Puglia SOUTH 198 127 13 676

Sicilia ISLANDS 3,402 403 13 522

Sardegna ISLANDS 228 33 10 85

Major greenhouse crops in Italy

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Netherlands: >90%Poland: >20%France: <20%

Spain: >20Italy: <10%Greece: <20%

Hydroponics in EU greenhouse industry

~ 200.000 ha

(Estimated percentage on greehouse area)

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Nutrient film technique AeroponicsFloating culture

SubirrigationDrip irrigation

Nutrient film technique AeroponicsFloating cultureNutrient film technique AeroponicsAeroponicsFloating cultureFloating culture

SubirrigationDrip irrigation SubirrigationDrip irrigation

Hydroponic technology (2)

Aggregate culture

Water culture

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Floating raftNFT

Rockwool culture Pot ornamentals

Hydroponic technology (2)

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Fresh-cut basil production in (fairly-stagnant) water culture

(Novellara, RE, Italy)

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Hydroponics: pros & cons.

� Ban of soil fumigants

� Soil salinization

� Labour shortage

� High-quality demanding consumers

� High investment costs

� Know-how

� Skilful labour

� Water salinization

� “Green-minded” consumers

☺☺☺☺

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Strawberry

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One of the reason of One of the reason of hydroponicshydroponics’’ flop!flop!

The right way!The right way!

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Soilles culture of tomato (2 crops/year)(Incrocci, 2011)

Leaching fraction < 0.20

• Water = 6,950 m3/ha• Nitrogen = 1,330 kg (N)

• Water = 8,630 m3/ha• Nitrogen = 1,600 kg (N)

• Water = 1,680 m3/ha• Nitrogen = 270 kg/ha N

Yield = 19.9 kg/m2

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(Semi)-closed system

RainwaterGroundwater

Day-storage tankStorage tank

Drain water

Raw water tank

Mixer

Sector 1

Sector 3

Sector 2

Disinfectionunit

Disinfectionunit

Fertigationstrategy

Day-storage tank

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Closed-loop soilless culture: drawbacks.

� Nutrient imbalance

� Rapid dispersal of root-borne pathogens

� Accumulation of organic compounds

(microbial metabolites, root exudates)

� Salinity build-up (accumulation of ballast ions)

Off-line/on-line analysis

Disinfection

Water quality

Fertigation strategy

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Contribution of different types of ions to the EC of nutrient solution (NS) in closed substrate culture of greenhouse tomato. The values refer to newly-prepared NS or NS that was recirculated for 1-2 weeks.

Accumulation of ballast ions in recirculating nutrient solutions

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B toxicity

18

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Greenhouse experiment (1): tomato and boron.

Treat.Mean EC

(dS/m)

Mean [B]

(mg/L)

Fruit dry

matter (%)

Fruit

yield(Kg/m2)

Fruit size

(g/fruit)

Leaf

scorch(%)

LS-LB 3.6 0.99 5.54 21.7 187.3 1.2

LS-HB 3.5 6.55 5.79 20.5 173.7 24.5

HS-LB 4.8 0.78 6.11 19.3 180.4 -

HS-HB 4.3 5.20 5.61 19.7 168.7 15.0

LS-LB = low EC + low [B] LS-HB = low EC + high [B];

HS-LB = high EC + low [B] HS-HB = high EC + high [B];

• Growing period: mid March – late August 2009

•Tomato cv. Caramba (beef-steak); 13 trusses.

• Recycling water substrate culture with perlite bags.

• EC threshold for flushing: 6.0 dS/m

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HS-LB[B] = 0.78 ppm

HS-HB[B] = 5.20 PPM

LS-LB[B] = 0.99 ppm

LS-HB[B] = 6.55 ppm

Greenhouse experiment (2): tomato and boron.

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Fertigation strategies in tomato soilless culture (1):

Semi-closed systems

Tank

Stocks

Rawwater

Strategy A Strategy B

Tank

Stocks

Rawwater

Flushing Flushing

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0.5

1.5

2.5

3.5

4.5

0 2 4 6 8 10 12 14NutrientsNaCl

Nut. Sol.

EC

NS (

ds m

-1)

Days

0.5

1.5

2.5

3.5

4.5

0 2 4 6 8 10 12 14NutrientsNaCl

Nut. Sol.

EC

NS (

ds m

-1)

Days

0.5

1.5

2.5

3.5

4.5

0 2 4 6 8 10 12 14NutrientsNaCl

Nut. Sol.

EC

NS (

ds m

-1)

Days

Strategy A Strategy B

Strategy C

0.5

1.5

2.5

3.5

4.5

NutrientsNaCl

Nut. Sol.

EC

D (

ds m

-1)

Time

Strategy D

Planting

End

Open system

Fertigation strategies in tomato soilless culture (2):

Semi-closed vs open systems

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Fertigation strategies in tomato soilless culture (3)

Strategy A

Strategy B

Strategy C

StrategyD (open)

Experiment I

Marketable yield (t ha-1) 99.2 90.2 90.8 99.2

Water use (m3 ha-1) 5,477 6,108 5,006 10,841

N-NO3− use (kg ha-1) 600 398 477 1215

N-NO3− leaching (kg ha-1) 168 14 22 715

Experiment II

Marketable yield (t ha-1) 188.0 200.1 182.9

Water use (m3 ha-1) 9,670 10,524 8,882

N-NO3− use (kg ha-1) 1,250 587 684

N-NO3− leaching (kg ha-1) 371 23 24

• Tomato, cv Jama F1, 3.0 pt m-2, spring (85 days) or fall (167 days), 5 or 13 trusses

• Irrigation water with 10 mM NaCl (EC = 1.53 dS/m)

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1 2 3

Monitoring nutrient solution (1)

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Monitoring nutrient solution (2):

Evalutation of quick tests

Element/ion Method Range (mg/L) Reliability

Ammonium Reflectometry 0 – 7

Boron Titration 0 – 5

Potassium Reflectometry 1 - 15

Chloride Reflectometry 50 - 1000

Nitrate Reflectometry 0 - 225

Phosphate Reflectometry 5 - 120 (<80 mg/L)

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Fertigation DSS (1)

Language management

Language

management CONTROL

PANEL

CONTROL

PANEL

User manualUser manual

DATABASEDATABASEData

management

Data

management

NS calculator

(SOLNUTRI)

ET

simulation

(SIMULETE)

Fertigation

management

ON-LINE(SIMULHYDRO)

Fertigation management

OFF-LINE(SIMULHYDRO)

ReportingStatistics

Graphical

display

ReportingStatistics

Graphical

display

Data exportData export

DB access

Key

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Drainage NS

Reference nutrient solution

Crop nutrient solution (NS)

Irrigation water

NS Calculator

Fertigationstrategy

Crop water and mineral uptake

NS Sim

ulator

Fertigation DSS (2): main routines.

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Irrigationwater

Nutrient stocks

Mixingtank

Substrate

Crop

OPEN SYSTEM Drainage Flushing

SEMI-CLOSED SYSTEM

Transpiration

Irrigation

Water uptake

ECadjustment

Recycling water

AcidpH

adjustment

pHadjustment

Draintank

Refill

Fertigation DSS (3): system layout

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Leaf area

Flushing event (runoff)

Ion concentration

Water uptake

WUE & NUE

Climate

Growing system

Crop

Crop

Water quality

Fertigation strategy

Crop (Yield)

Input

Fertigation strategy

Output

Fertigation DSS (3): model description.

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0

1

2

3

4

5

6Strategy A

EC

(dS

m-1

)

0

1

2

3

4

5

6Strategy B

EC

(dS

m-1)

0 10 20 30 40 50 60 70 80 900

1

2

3

4

5

Strategy C

Days after planting

EC

(dS

m-1

)

0 10 20 30 40 50 60 70 80 900

1

2

3

4

5

Strategy D

Days after planting

EC

(dS

m-1)

Fertigation DSS (3): model validation (EC).

Page 31: Fertigation management in greenhouse hydroponics - WUR · Fertigation management in greenhouse hydroponics Alberto Pardossi (alberto.pardossi@agr.unipi.it) University of Pisa, Pisa,

Strategy A

0

4

8

12

16

Na+

NO3

-

Ion c

oncentr

ation (

mol m

-3)

0

7

14

21

28

35

Strategy B

Na+

NO3

-

Ion co

nce

ntra

tion (m

ol m

-3)

0 10 20 30 40 50 60 70 80 90

Strategy C

0

4

8

12

16

Na+

NO3

-

Days after planting

Ion c

once

ntr

ation (

mol m

-3)

0 10 20 30 40 50 60 70 80 900

7

14

21

28

35

Strategy D

Na+

NO3

-

Days after planting

Ion c

oncentra

tion (m

ol m

-3)

Fertigation DSS (3): model validation (ion content).

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Conclusions

�Closing irrigation loop is feasible.

�Monitoring nutrient solution is necessary.

� Fertigation strategy may be adapted to growing conditions.

�Quick tests are suitable for NS monitoring.

� Simulation models are useful (off-line) management tool (off-line management)

Page 33: Fertigation management in greenhouse hydroponics - WUR · Fertigation management in greenhouse hydroponics Alberto Pardossi (alberto.pardossi@agr.unipi.it) University of Pisa, Pisa,

Thank you very much!Thank you very much!

Dip. Biologia Piante Agrarie – Villa Victorine (Le Piagge, Pisa)

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Campo de Dalìas, Almeria, Spain